US1748624A - Periscope - Google Patents

Description

Patented Feb.` 25, 1930 UNITED STATES PATENT OFFICE LOUIS. s. sHIvELY, or Sfr. LOUIS, MISsOURI, AssIGNOR 'ro rIIIR wEIeR'roGRArI-I COMPANY, -or sr. -LOUIS, MISSOURI, A CORPORATION or MISSOURI PERISCOPE Application led February This invention relates to improvements in perlscopes and conslsts in the novel constructlon herinafter dlsclosed.

The invention is applicable primarily to` the indicia on the transparent scale through.

an optical system of lenses and reflecting surfaces upon a screen having a set position. The limitations of'a structure in which the screen has a set position are that, in order to obtain a view of the centered image, the line of sight to the image is required to be substantially on a line perpendicular to the set plane of the screen so that the image may be read only from a predetermined elevation. An obj ect of this invention is to remove this limitation and to make the sight housingyadjustable so that the image on thescreen may be readfrom different elevations.

Another object of the invention is to provide for changing the angularity of the'plane of the screen and of the sight housing in which it is mounted in respect of a housing having a fixed position, together with means for'varying the relative angularity of the reflecting surfaces so that a true image will be projected upon the Screen, regardless of the adjustment thereof. 1

The structure has uses broader than the specific embodiment in a scale, and has also additional advantages which will be apparent from the following detailed description thereof, taken in connection with the accompanying drawing, in which Fig. 1 is a front elevation showing the device attached to the front plate of la scale; Fig. 2 is an enlarged view in front elevation;

Fig. 3 is a vertical section; Fig. 4 is an inclined section on the line 4-4 of Fig. 3; and, y 50 Fig. 5 is a detail view illustrating the pivot 26, 1926. Serial No. 90,806.

connection between the fixed and adjustable housing.

In the embodiment of the invention illustrated in the drawing, the device is shown in connection with a front plate 1 of an auto- 55 matic weighing scale in which the transparent movable indicia scale of the weighing mechanism is magnified and projected forwardly in a horizontal plane bya lens system through an opening 2 in the plate. A 60 housing 3 comprising preferably a casing vforming a vertically extending enclosure has an opening 4 therein that alines withthe opening 2 in the front plate of the scale for the admission of light to the housing 3.

Around the opening 4 is a flange 5 and the housing y3 is removably secured to the scale vmember by screws 6' passing through the flange and into the face of the scale member.

The lower portion of the front wall of the housing 3 comprises a removable plate 7 which is secured in position by screws 8 extending through the plate and into the wall of the housing'3 near the margin of the opening covered by said plate 7.

A reflector 9 is carried in a frame 10, the said frame being adjustably connected with the inner face of the plate 7 by screws 11'. The reflector 9 is in alinement with the opening 4 in the housing and is set at an angle 80 so that the image projected forwardly from the lens system will be deflected in a vertical direction toward the top of the housing 3.

An adjustable housing 12 is hinged to the upper portion of the housing 3 on a fulcrum 85 connecting the lower wall of the housing 12. with the edge ofthe front wallv of the housing 3. The movable joint between the housings 3 and 12 is designed to exclude light and the joint is formed by providing a semi-cylindri- 90 cal bead 13 on the upper marginal edge of the front wall of the housing 3 against which the inner surface of a segmental flange 14 on the I rear marginal edge of the lower wall of the housing 12 fits. It will be understood that the 95 housings 3 and 12 are so dimensioned that the adjacent walls of the two housings telescope, the walls of the housing 12 fitting over the walls of the housing 3. By reference to Fig.

3 of the drawing, it will be noted that the up- 10 per portion of the rear Wall of the housing 3 is curved at 15 and that the rear portion of the upper wall of the housing 12 has a curved portion 16 paralleling the curved portion of the portion 15 of the housing 3.

Adj acentto the marginal edge of the upper wall of the housing 12 are spaced beads 17 forming-a channel therebetween in which the packing material 18 is placed to form' a lighttight joint between the upper walls of the two houslngs.

The pivot pins upon which the housings 3 'and 12 are fulcrumed are illustrated in detail that-:fits into'a notclr`^25 in the upper'fface offthe bead 13 and the inner end of the screw 19 is turned down to fit through an opening in the lower end of the arm 24 of the bracket 22, thereby pivotally supporting the bracket 22.

From the construction above described, it

' will be understood that the housingv 12 may be adjusted by moving it upon a horizontal axis through the pivot connection between the Walls of the housings 3 and 12. The packing 18 constitutes a frictional engagementL between the upper walls of the two housings and serves to frictionally hold the housing 12 in the predetermined positions in which it may be set by elevating or depressing the forward end thereof.

Within the housing 12 and set backwardly a sufiicient distance so that it will be screened by the forward portion of the Walls of'the housing and will be readily visible through the sight opening 26 thereof is a screen 27 preferably comprising a ground glass panel. The screen 27 is removably supported within the housing 12 by providing a flange 28 around the inner wall of the housing against which the panel fits and is held in place by a pair of removable clips 29 secured to each side Wall of the housing by screws 30.

When the device is used in connection with scales, a pointer 31 supported by one of the side walls of the housing 12 extends transversely across the path of rays of light projected upon the screen 27 and serves as an indicator to mark the centering of the projected scale strip as graphically illustrated in Figs. 1 and 2 of the drawings.

Obviously, as .the angularity of the housing 12 and therefore the angularity of the plane of the screen 27 in respect of the fixed housing and the fixed reflector 9 is changed.

in order to preserve the adjustment of the instrument and to afford a true reflection of the image, it is necessary to provide an adjustable reflector having a movement coordinated with the movement of the housing. This is accomplished by an automatically adjustable reflector, the angle of which is changed automatically by the movement of the housing 12. This adjustable reflector comprises a reflecting panel 32 set in a frame 33, said frame having a depending angular bracket 34 having an arm 35 extending at right angles to the lower wall thereof. There is an alined opening through the arm 35 and the wall of the frame through which the guide rod 23 extends. l

The frame 33 is fulcrumed on pins comprising the screws 36, said screws being supported in adjustable bearings formed by the intersection of slots 37 and 38 cut in the side walls of the housing 3 and the housing 12, it being understood that there is a pair of intersecting slots for each of the pins 36. These slots are formed with a definite relationship, so that the rays of light reflected from the mirror 32 will always be projected against the screen 27 at the same angle, regardless of the position of the housing 12, and of the screen.

rl`he slots 37 being inthe permanent housing remain fixed and the axes thereof are coincident with the line of reflection from the mirror 9. The slots 38, being in the movable member, change angularity with the movement of the sight housing 12. The axes of both the slots 37 and of the slots 38 are equidistant from the common fulcrum point of the housing. The axis of the guide rod 23 is perpendicular to the face of the plane of the mirror 32, and the fulcrum of the guide rod is coincident with the main fulcrum of the movable housing. The screen, being fixed in the housing 12, changes its angularity with the movement of the sight housing.

Since the axis of the pivot pins 36 of the reflector 32 is coincident with the face of the reflector, andthe pivot pins are supported at the intersection of the slots 37 and 38, the face of the mirror32 willbe automatically adjusted so that the angle of the light rays reflected from the mirror 32 will always intersect the plane of the screen 27 at the same angle, and thereby center the image on the screen. is true because thel sum of the angles of incidence and reflection plus the intermediate angle will equal 180 degrees, and as the intermediate angle formed bv the intersection of the slots changes angularity in proportion to the change of angularity ofthe housing 12 in respect of the housing 3, the angle of incidence and the angle of reflection will be equally increased and diminished-according to the increase or diminution of the angle between the two housings which is equal to the intermediate angle between. the angle of intion will always be perpendicular to the face of the screen so that the image will be projected without distortion and accurately centered upon the screen.

In order to limit the range of movement of the sight housing, it will be noted thatl the lower edge of the segmentalvflange 14, when it abuts against the vface of the front wall of the housing 3, acts as a stop for the downward movement of the housing. The movement of the housing 12 is limited b'ythe fulcrum pins 36 of the frame 33 abutting against the base of theslots 37 and 38.

A baille wall 39 projectsinto the housing 12 and prevents' any of the light rays from being deflected back of the reflector, thus avoiding dimming ofthe image on the screen by any illumination back of the screen other than the direct rays reflected from the reflector 32.

I am aware that the invention may be modified in various particulars without departure from the spirit and scope thereof, butl what I claim and desire to secure by Letters Patent is:

1. A device of the class described comprising a fixed housing having an opening for admission of light, a reflector mounted in said housing, an adjustable sight housing having hinged relationship with said fixed housing, a translucent screen in said sight housing, an adjustable reflectorl between said first named reflector and said screen, and means for changing the angle of said adjustable reflector incident to the movement of said adjustable housing for projecting the rays of light from said adjustable reflector in a constant direction with respect lcarriedby said adjustable housing, an adjustable reflector intermediate said `first named reflector and said screen, and automatic means operated as an incident to the movement n of said adjustable housing to change the angle of said lastnamed reflector, whereby the angle of incidence and angle of reflection are increased or decreased to reflect the rays of light at a constant angle in respect to the screen.

3. A device of the classl described comprising a fixed housing having an opening for admission of light, a reflector in said fixed housing for. deflecting the lightjrays,I a.

housing angularly adjustable in respect .of said first named housing, a screen` for receiving the imag-e having a fixed relationship with said adjustable housing, a reflector intermediate said first named reflector and said screen, a fulcrum for said last named reflector having a movable axis, and means operated by the movement of said adjustable housing for predetermining the axis of said last named reflector and the angle of incidence to said last named reflector and the angle of reflection from said last named reflector toK said screen are increased or diminished to refleet the rays of light at a constant angle in respect to the screen when the angle of the plane of the screen is changed by the movement of said adjustable housing. g

4. A device of the class described comprising a fixedhousing providedI with an opening for admission of light, a refiector in said fixed housing for changing the direction of the light rays entering said housing, a pair of slots formed in said fixed housing, an adj ustable housing hinged to said fixed housing, said adjustable housing having a pair of slots intersecting the slots in said fixedr housmg and the slots in each housing having their axes equidistant from the hinge connection between the said housings, a screen for receiving the'image in said adjustable housing, a reflector having pivot connections riding 1n the intersection of said slots, and a guide device for maintaining a relative position of ther face of said last named reflector with the axis of the hinge connection.

5. A device of the class described comprising a pair of angularly adjustable housing members forming an enclosure for a path of 4light, the angularity of which is changed, a

screen for receiving a reflected image mounted in one of said housing members, a reflector system including a pivoted mirror, and a connection operated incident to the movement of the housing members in respect of'V each other, whereby the angularity of said mirror is changed to reflect the image perpendicular to the face of said screen in any adjustment of said housingl members.

6. A device of the class described comprising a pair of angularly adjustable housing members forming an enclosure for a path of light, the angularity of which is changed, a screen for receiving a reflected image mounted in one of said housing members, a reflectorsystem including a pivoted mirror, and a connection operated incident to the` movement of the housing members in respect of each other for changing the pivot axis of said mirror.

7. A device of the class described comprising a pair of angularly adjustable housing members forming an enclosure vfor a path of light, a pivot upon which said members move in respect of each other, a screen for receiving a reflected image mounted in one'of said housing members, a reflector system including a pivoted mir"or, a movable pivot connection between the mirror and the housing members, and a connection between said movable pivot and the pivot upon which the housing members move whereby movement of the housing members in respect of each other moves the pivot for the mirror for causing a constant reflertion from said mirror.

LOUIS S. SHIVELY.

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